# Copyright 2015 The Chromium Authors # Use of this source code is governed by a BSD-style license that can be # found in the LICENSE file. # Toolchain-related configuration that may be needed outside the context of the # toolchain() rules themselves. import("//build/config/cast.gni") import("//build/config/chrome_build.gni") import("//build_overrides/build.gni") declare_args() { # If this is set to true, we use the revision in the llvm repo to determine # the CLANG_REVISION to use, instead of the version hard-coded into # //tools/clang/scripts/update.py. This should only be used in # conjunction with setting the llvm_force_head_revision DEPS variable when # `gclient runhooks` is run as well. llvm_force_head_revision = false # Cronet is shipped in AOSP, where it is built using the Android Mainline # Clang. Please refer to go/cronet-builders-with-mainline-clang-design for # more information. # If this arg is set to true, we use the Android Mainline LLVM. llvm_android_mainline = false # Used for binary size analysis. generate_linker_map = is_android && is_official_build # Whether this toolchain is to be used for building host tools that are # consumed during the build process. That includes proc macros and Cargo build # scripts. toolchain_for_rust_host_build_tools = false # If false, the toolchain overrides `use_partition_alloc_as_malloc` in # PartitionAlloc, to allow use of the system allocator. toolchain_allows_use_partition_alloc_as_malloc = true } if (generate_linker_map) { assert(is_official_build || is_castos || is_cast_android, "Linker map files should only be generated when is_official_build = " + "true or is_castos = true or is_cast_android = true") assert(current_os == "android" || current_os == "linux" || target_os == "android" || target_os == "linux" || target_os == "chromeos", "Linker map files should only be generated for Android, Linux, " + "or ChromeOS.") } declare_args() { if (llvm_android_mainline) { # https://crbug.com/1481060 clang_version = "17" } else { clang_version = "20" } } # Extension for shared library files (including leading dot). if (is_apple) { shlib_extension = ".dylib" } else if (is_posix || is_fuchsia) { shlib_extension = ".so" } else if (is_win) { shlib_extension = ".dll" } else { assert(false, "Platform not supported") } # Same extension but for the host platform. We have significantly fewer host # platforms. if (host_os == "mac") { host_shlib_extension = ".dylib" } else if (host_os == "win") { host_shlib_extension = ".dll" } else if (host_os == "linux" || host_os == "aix" || host_os == "zos") { host_shlib_extension = ".so" } else { assert(false, "Host platform not supported") } # Prefix for shared library files. if (is_posix || is_fuchsia) { shlib_prefix = "lib" } else { shlib_prefix = "" } # Directory for shared library files. if (is_fuchsia) { shlib_subdir = "/lib" } else { shlib_subdir = "" } # While other "tool"s in a toolchain are specific to the target of that # toolchain, the "stamp" and "copy" tools are really generic to the host; # but each toolchain must define them separately. GN doesn't allow a # template instantiation inside a toolchain definition, so some boilerplate # has to be repeated in each toolchain to define these two tools. These # four variables reduce the duplication in that boilerplate. stamp_description = "STAMP {{output}}" copy_description = "COPY {{source}} {{output}}" if (host_os == "win") { _tool_wrapper_path = rebase_path("//build/toolchain/win/tool_wrapper.py", root_build_dir) stamp_command = "cmd /c type nul > \"{{output}}\"" copy_command = "\"$python_path\" $_tool_wrapper_path recursive-mirror {{source}} {{output}}" } else { stamp_command = "touch {{output}}" copy_command = "ln -f {{source}} {{output}} 2>/dev/null || (rm -rf {{output}} && cp -af {{source}} {{output}})" } # This variable is true if the current toolchain is one of the target # toolchains, i.e. a toolchain which is being used to build the main Chrome # binary. This generally means "not the host toolchain", but in the case where # we're targeting the host it's true then as well. We do require current_os to # match target_os so that for example we avoid considering Android as a target # toolchain when targeting CrOS. is_a_target_toolchain = (current_toolchain != host_toolchain || default_toolchain == host_toolchain) && current_os == target_os # A toolchain for building tools that run on the host machine and need to use # the system allocator. This toolchain does not use PartitionAlloc-Everywhere by # design. We use a name with `_host` injected into it to avoid colliding with # toolchains of the same name (but different path) between different OSes. host_system_allocator_toolchain = "${host_toolchain}_host_with_system_allocator" # A toolchain for building tools that run on the default target machine and need # to use the system allocator. This toolchain does not use # PartitionAlloc-Everywhere by design. default_system_allocator_toolchain = "${default_toolchain}_with_system_allocator"